/* Copyright 2023 Dual Tachyon * https://github.com/DualTachyon * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "frequencies.h" #include "misc.h" #include "settings.h" // the BK4819 has 2 bands it covers, 18MHz ~ 630MHz and 760MHz ~ 1300MHz const uint32_t bx_start1_Hz = 1800000; // 18MHz const uint32_t bx_stop1_Hz = 63000000; // 630MHz const uint32_t bx_start2_Hz = 76000000; // 760MHz const uint32_t bx_stop2_Hz = 130000000; // 1300MHz const uint32_t LowerLimitFrequencyBandTable[7] = { #ifndef ENABLE_WIDE_RX 5000000, #else 1800000, #endif 10800000, 13600000, 17400000, 35000000, 40000000, 47000000 }; const uint32_t MiddleFrequencyBandTable[7] = { 6500000, 12200000, 15000000, 26000000, 37000000, 43500000, 55000000 }; const uint32_t UpperLimitFrequencyBandTable[7] = { 7600000, 13599990, 17399990, 34999990, 39999990, 46999990, #ifndef ENABLE_WIDE_RX 60000000 #else 130000000 #endif }; #ifdef ENABLE_NOAA const uint32_t NoaaFrequencyTable[10] = { 16255000, 16240000, 16247500, 16242500, 16245000, 16250000, 16252500, 16152500, 16177500, 16327500 }; #endif #if 0 const uint16_t StepFrequencyTable[7] = { 250, 500, 625, 1000, 1250, 2500, 833 }; #else const uint16_t StepFrequencyTable[7] = { 125, 250, 625, 1000, 1250, 2500, 833 }; #endif FREQUENCY_Band_t FREQUENCY_GetBand(uint32_t Frequency) { // if (Frequency >= 60000000 && Frequency <= bx_max_Hz) // return BAND7_470MHz; if (Frequency >= 47000000) return BAND7_470MHz; if (Frequency >= 40000000) return BAND6_400MHz; if (Frequency >= 35000000) return BAND5_350MHz; if (Frequency >= 17400000) return BAND4_174MHz; if (Frequency >= 13600000) return BAND3_136MHz; if (Frequency >= 10800000) return BAND2_108MHz; if (Frequency >= 5000000) return BAND1_50MHz; // if (Frequency >= bx_min_Hz) return BAND1_50MHz; // TODO: Double check the assembly // return BAND6_400MHz; } uint8_t FREQUENCY_CalculateOutputPower(uint8_t TxpLow, uint8_t TxpMid, uint8_t TxpHigh, int32_t LowerLimit, int32_t Middle, int32_t UpperLimit, int32_t Frequency) { if (Frequency <= LowerLimit) return TxpLow; if (UpperLimit <= Frequency) return TxpHigh; if (Frequency <= Middle) { TxpMid += ((TxpMid - TxpLow) * (Frequency - LowerLimit)) / (Middle - LowerLimit); return TxpMid; } TxpMid += ((TxpHigh - TxpMid) * (Frequency - Middle)) / (UpperLimit - Middle); return TxpMid; } uint32_t FREQUENCY_FloorToStep(uint32_t Upper, uint32_t Step, uint32_t Lower) { uint32_t Index; if (Step == 833) { const uint32_t Delta = Upper - Lower; uint32_t Base = (Delta / 2500) * 2500; const uint32_t Index = ((Delta - Base) % 2500) / 833; if (Index == 2) Base++; return Lower + Base + (Index * 833); } Index = (Upper - Lower) / Step; return Lower + (Step * Index); } /* int TX_FREQUENCY_Check(VFO_Info_t *pInfo) { // return '0' if TX frequency is allowed // otherwise return '-1' const uint32_t Frequency = pInfo->pTX->Frequency; #ifdef ENABLE_NOAA if (pInfo->CHANNEL_SAVE > FREQ_CHANNEL_LAST) return -1; #endif */ int TX_FREQUENCY_Check(const uint32_t Frequency) { // return '0' if TX frequency is allowed // otherwise return '-1' if (Frequency < LowerLimitFrequencyBandTable[0] || Frequency > UpperLimitFrequencyBandTable[6]) return -1; if (Frequency >= bx_stop1_Hz && Frequency < bx_start2_Hz) return -1; switch (gSetting_F_LOCK) { case F_LOCK_OFF: if (Frequency >= 13600000 && Frequency < 17400000) return 0; if (Frequency >= 17400000 && Frequency < 35000000) if (gSetting_200TX) return 0; if (Frequency >= 35000000 && Frequency < 40000000) if (gSetting_350TX && gSetting_350EN) return 0; if (Frequency >= 40000000 && Frequency < 47000000) return 0; if (Frequency >= 47000000 && Frequency <= 60000000) if (gSetting_500TX) return 0; break; case F_LOCK_FCC: if (Frequency >= 14400000 && Frequency < 14800000) return 0; if (Frequency >= 42000000 && Frequency < 45000000) return 0; break; case F_LOCK_CE: if (Frequency >= 14400000 && Frequency < 14600000) return 0; break; case F_LOCK_GB: if (Frequency >= 14400000 && Frequency < 14800000) return 0; if (Frequency >= 43000000 && Frequency < 44000000) return 0; break; case F_LOCK_430: if (Frequency >= 13600000 && Frequency < 17400000) return 0; if (Frequency >= 40000000 && Frequency < 43000000) return 0; break; case F_LOCK_438: if (Frequency >= 13600000 && Frequency < 17400000) return 0; if (Frequency >= 40000000 && Frequency < 43800000) return 0; break; } // dis-allowed TX frequency return -1; } int RX_FREQUENCY_Check(const uint32_t Frequency) { // return '0' if RX frequency is allowed // otherwise return '-1' if (Frequency < LowerLimitFrequencyBandTable[0] || Frequency > UpperLimitFrequencyBandTable[6]) return -1; if (Frequency >= bx_stop1_Hz && Frequency < bx_start2_Hz) return -1; return 0; // OK frequency }